/* hsinfo.c Get information about a system from the HDB configuration files. Copyright (C) 1992, 1993, 1995 Ian Lance Taylor This file is part of the Taylor UUCP uuconf library. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. The author of the program may be contacted at ian@airs.com or c/o Cygnus Support, 48 Grove Street, Somerville, MA 02144. */ #include "uucnfi.h" #if USE_RCS_ID const char _uuconf_hsinfo_rcsid[] = "$FreeBSD$"; #endif #include #include static int ihadd_machine_perm P((struct sglobal *qglobal, struct uuconf_system *qsys, struct shpermissions *qperm)); static int ihadd_logname_perm P((struct sglobal *qglobal, struct uuconf_system *qsys, struct shpermissions *qperm)); /* Get the information for a particular system from the HDB configuration files. This does not make sure that all the default values are set. */ int _uuconf_ihdb_system_internal (qglobal, zsystem, qsys) struct sglobal *qglobal; const char *zsystem; struct uuconf_system *qsys; { int iret; struct shpermissions *qperm; char *zline; size_t cline; char **pzsplit; size_t csplit; char **pzcomma; size_t ccomma; pointer pblock; char **pz; boolean ffound_machine, ffound_login; struct shpermissions *qother_machine; struct uuconf_system *qalt; if (! qglobal->qprocess->fhdb_read_permissions) { iret = _uuconf_ihread_permissions (qglobal); if (iret != UUCONF_SUCCESS) return iret; } /* First look through the Permissions information to see if this is an alias for some system. I assume that an alias applies to the first name in the corresponding MACHINE entry. */ for (qperm = qglobal->qprocess->qhdb_permissions; qperm != NULL; qperm = qperm->qnext) { if (qperm->pzalias == NULL || qperm->pzmachine == NULL || qperm->pzalias == (char **) &_uuconf_unset || qperm->pzmachine == (char **) &_uuconf_unset) continue; for (pz = qperm->pzalias; *pz != NULL; pz++) { if (strcmp (*pz, zsystem) == 0) { zsystem = qperm->pzmachine[0]; break; } } if (*pz != NULL) break; } zline = NULL; cline = 0; pzsplit = NULL; csplit = 0; pzcomma = NULL; ccomma = 0; pblock = NULL; iret = UUCONF_SUCCESS; for (pz = qglobal->qprocess->pzhdb_systems; *pz != NULL; pz++) { FILE *e; int cchars; qglobal->ilineno = 0; e = fopen (*pz, "r"); if (e == NULL) { if (FNO_SUCH_FILE ()) continue; qglobal->ierrno = errno; iret = UUCONF_FOPEN_FAILED | UUCONF_ERROR_ERRNO; break; } while ((cchars = _uuconf_getline (qglobal, &zline, &cline, e)) > 0) { int ctoks, ctimes, i; struct uuconf_system *qset; char *z, *zretry; int cretry; ++qglobal->ilineno; --cchars; if (zline[cchars] == '\n') zline[cchars] = '\0'; if (isspace (BUCHAR (zline[0])) || zline[0] == '#') continue; ctoks = _uuconf_istrsplit (zline, '\0', &pzsplit, &csplit); if (ctoks < 0) { qglobal->ierrno = errno; iret = UUCONF_MALLOC_FAILED | UUCONF_ERROR_ERRNO; break; } /* If this isn't the system we're looking for, keep reading the file. */ if (ctoks < 1 || strcmp (zsystem, pzsplit[0]) != 0) continue; /* If this is the first time we've found the system, we want to set *qsys directly. Otherwise, we allocate a new alternate. */ if (pblock == NULL) { pblock = uuconf_malloc_block (); if (pblock == NULL) { qglobal->ierrno = errno; iret = UUCONF_MALLOC_FAILED | UUCONF_ERROR_ERRNO; break; } _uuconf_uclear_system (qsys); qsys->uuconf_palloc = pblock; qset = qsys; } else { struct uuconf_system **pq; qset = ((struct uuconf_system *) uuconf_malloc (pblock, sizeof (struct uuconf_system))); if (qset == NULL) { qglobal->ierrno = errno; iret = UUCONF_MALLOC_FAILED | UUCONF_ERROR_ERRNO; break; } _uuconf_uclear_system (qset); for (pq = &qsys->uuconf_qalternate; *pq != NULL; pq = &(*pq)->uuconf_qalternate) ; *pq = qset; } /* Add this line to the memory block we are building for the system. */ if (uuconf_add_block (pblock, zline) != 0) { qglobal->ierrno = errno; iret = UUCONF_MALLOC_FAILED | UUCONF_ERROR_ERRNO; break; } zline = NULL; cline = 0; /* The format of a line in Systems is system time device speed phone chat For example, airs Any ACU 9600 5551212 ogin: foo pass: bar */ /* Get the system name. */ qset->uuconf_zname = pzsplit[0]; qset->uuconf_fcall = TRUE; qset->uuconf_fcalled = FALSE; if (ctoks < 2) continue; /* A time string is "time/grade,time/grade;retry". A missing grade is taken as BGRADE_LOW. */ zretry = strchr (pzsplit[1], ';'); if (zretry == NULL) cretry = 0; else { *zretry = '\0'; cretry = (int) strtol (zretry + 1, (char **) NULL, 10); } ctimes = _uuconf_istrsplit (pzsplit[1], ',', &pzcomma, &ccomma); if (ctimes < 0) { qglobal->ierrno = errno; iret = UUCONF_MALLOC_FAILED | UUCONF_ERROR_ERRNO; break; } for (i = 0; i < ctimes; i++) { char *zslash; char bgrade; z = pzcomma[i]; zslash = strchr (z, '/'); if (zslash == NULL) bgrade = UUCONF_GRADE_LOW; else { *zslash = '\0'; bgrade = zslash[1]; if (! UUCONF_GRADE_LEGAL (bgrade)) bgrade = UUCONF_GRADE_LOW; } iret = _uuconf_itime_parse (qglobal, z, (long) bgrade, cretry, _uuconf_itime_grade_cmp, &qset->uuconf_qtimegrade, pblock); /* We treat a syntax error in the time field as equivalent to ``never'', on the assumption that that is what HDB does. */ if (iret == UUCONF_SYNTAX_ERROR) iret = UUCONF_SUCCESS; if (iret != UUCONF_SUCCESS) break; /* Treat any time/grade setting as both a timegrade and a call-timegrade. */ if (bgrade != UUCONF_GRADE_LOW) qset->uuconf_qcalltimegrade = qset->uuconf_qtimegrade; } if (iret != UUCONF_SUCCESS) break; if (ctoks < 3) continue; /* Pick up the device name. It can be followed by a comma and a list of protocols. */ qset->uuconf_zport = pzsplit[2]; z = strchr (pzsplit[2], ','); if (z != NULL) { qset->uuconf_zprotocols = z + 1; *z = '\0'; } if (ctoks < 4) continue; /* The speed entry can be a numeric speed, or a range of speeds, or "Any", or "-". If it starts with a letter, the initial nonnumeric prefix is a modem class, which gets appended to the port name. */ z = pzsplit[3]; if (strcasecmp (z, "Any") != 0 && strcmp (z, "-") != 0) { char *zend; while (*z != '\0' && ! isdigit (BUCHAR (*z))) ++z; qset->uuconf_ibaud = strtol (z, &zend, 10); if (*zend == '-') qset->uuconf_ihighbaud = strtol (zend + 1, (char **) NULL, 10); if (z != pzsplit[3]) { size_t cport, cclass; cport = strlen (pzsplit[2]); cclass = z - pzsplit[3]; qset->uuconf_zport = uuconf_malloc (pblock, cport + cclass + 1); if (qset->uuconf_zport == NULL) { qglobal->ierrno = errno; iret = UUCONF_MALLOC_FAILED | UUCONF_ERROR_ERRNO; break; } memcpy ((pointer) qset->uuconf_zport, (pointer) pzsplit[2], cport); memcpy ((pointer) (qset->uuconf_zport + cport), (pointer) pzsplit[3], cclass); qset->uuconf_zport[cport + cclass] = '\0'; } } if (ctoks < 5) continue; /* Get the phone number. */ qset->uuconf_zphone = pzsplit[4]; if (ctoks < 6) continue; /* Get the chat script. We just hand this off to the chat script processor, so that it will parse subsend and subexpect strings correctly. */ pzsplit[4] = (char *) "chat"; iret = _uuconf_ichat_cmd (qglobal, ctoks - 4, pzsplit + 4, &qset->uuconf_schat, pblock); iret &=~ UUCONF_CMDTABRET_KEEP; if (iret != UUCONF_SUCCESS) break; } (void) fclose (e); if (iret != UUCONF_SUCCESS) break; } if (zline != NULL) free ((pointer) zline); if (pzsplit != NULL) free ((pointer) pzsplit); if (pzcomma != NULL) free ((pointer) pzcomma); if (iret != UUCONF_SUCCESS) { qglobal->zfilename = *pz; return iret | UUCONF_ERROR_FILENAME | UUCONF_ERROR_LINENO; } if (pblock == NULL) return UUCONF_NOT_FOUND; /* Now we have to put in the Permissions information. The relevant Permissions entries are those with this system in the MACHINE list and (if this system does not have a VALIDATE entry) those with a LOGNAME list but no MACHINE list. If no entry is found with this system in the MACHINE list, then we must look for an entry with "OTHER" in the MACHINE list. */ ffound_machine = FALSE; ffound_login = FALSE; qother_machine = NULL; for (qperm = qglobal->qprocess->qhdb_permissions; qperm != NULL; qperm = qperm->qnext) { boolean fmachine; /* MACHINE=OTHER is recognized specially. It appears that OTHER need only be recognized by itself, not when combined with other machine names. */ if (qother_machine == NULL && qperm->pzmachine != NULL && qperm->pzmachine != (char **) &_uuconf_unset && qperm->pzmachine[0][0] == 'O' && strcmp (qperm->pzmachine[0], "OTHER") == 0) qother_machine = qperm; /* If this system is named in a MACHINE entry, we must add the appropriate information to every alternate that could be used for calling out. */ fmachine = FALSE; if (! ffound_machine && qperm->pzmachine != NULL && qperm->pzmachine != (char **) &_uuconf_unset) { for (pz = qperm->pzmachine; *pz != NULL; pz++) { if ((*pz)[0] == zsystem[0] && strcmp (*pz, zsystem) == 0) { for (qalt = qsys; qalt != NULL; qalt = qalt->uuconf_qalternate) { if (qalt->uuconf_fcall) { iret = ihadd_machine_perm (qglobal, qalt, qperm); if (iret != UUCONF_SUCCESS) return iret; } } fmachine = TRUE; ffound_machine = TRUE; break; } } } /* A LOGNAME line applies to this machine if it is listed in the corresponding VALIDATE entry, or if it is not listed in any VALIDATE entry. On this pass through the Permissions entry we pick up the information if the system appears in a VALIDATE entry; if it does not, we make another pass to put in all the LOGNAME lines. */ if (qperm->pzlogname != NULL && qperm->pzlogname != (char **) &_uuconf_unset && qperm->pzvalidate != NULL && qperm->pzvalidate != (char **) &_uuconf_unset) { for (pz = qperm->pzvalidate; *pz != NULL; ++pz) if ((*pz)[0] == zsystem[0] && strcmp (*pz, zsystem) == 0) break; if (*pz != NULL) { for (pz = qperm->pzlogname; *pz != NULL; ++pz) { /* If this LOGNAME line is also a matching MACHINE line, we can add the LOGNAME permissions to the first alternate. Otherwise, we must create a new alternate. We cannot put a LOGNAME line in the first alternate if MACHINE does not match, because certain permissions (e.g. READ) may be specified by both types of lines, and we must use LOGNAME entries only when accepting calls and MACHINE entries only when placing calls. */ if (fmachine && (qsys->uuconf_zcalled_login == NULL || (qsys->uuconf_zcalled_login == (char *) &_uuconf_unset))) { qsys->uuconf_zcalled_login = *pz; iret = ihadd_logname_perm (qglobal, qsys, qperm); } else { struct uuconf_system *qnew; struct uuconf_system **pq; qnew = ((struct uuconf_system *) uuconf_malloc (pblock, sizeof (struct uuconf_system))); if (qnew == NULL) { qglobal->ierrno = errno; return UUCONF_MALLOC_FAILED | UUCONF_ERROR_ERRNO; } *qnew = *qsys; qnew->uuconf_qalternate = NULL; for (pq = &qsys->uuconf_qalternate; *pq != NULL; pq = &(*pq)->uuconf_qalternate) ; *pq = qnew; qnew->uuconf_zcalled_login = *pz; qnew->uuconf_fcall = FALSE; iret = ihadd_logname_perm (qglobal, qnew, qperm); } if (iret != UUCONF_SUCCESS) return iret; } ffound_login = TRUE; } } } /* If we didn't find an entry for the machine, we must use the MACHINE=OTHER entry, if any. */ if (! ffound_machine && qother_machine != NULL) { for (qalt = qsys; qalt != NULL; qalt = qalt->uuconf_qalternate) { if (qalt->uuconf_fcall) { iret = ihadd_machine_perm (qglobal, qalt, qother_machine); if (iret != UUCONF_SUCCESS) return iret; } } } /* If this system was not listed in any VALIDATE entry, then we must add a called-login for each LOGNAME entry in Permissions. */ if (! ffound_login) { for (qperm = qglobal->qprocess->qhdb_permissions; qperm != NULL; qperm = qperm->qnext) { if (qperm->pzlogname == NULL || qperm->pzlogname == (char **) &_uuconf_unset) continue; for (pz = qperm->pzlogname; *pz != NULL; pz++) { struct uuconf_system *qnew; struct uuconf_system **pq; qnew = ((struct uuconf_system *) uuconf_malloc (pblock, sizeof (struct uuconf_system))); if (qnew == NULL) { qglobal->ierrno = errno; return UUCONF_MALLOC_FAILED | UUCONF_ERROR_ERRNO; } *qnew = *qsys; qnew->uuconf_qalternate = NULL; for (pq = &qsys->uuconf_qalternate; *pq != NULL; pq = &(*pq)->uuconf_qalternate) ; *pq = qnew; /* We recognize LOGNAME=OTHER specially, although this appears to be an SCO innovation. */ if (strcmp (*pz, "OTHER") == 0) qnew->uuconf_zcalled_login = (char *) "ANY"; else qnew->uuconf_zcalled_login = *pz; qnew->uuconf_fcall = FALSE; iret = ihadd_logname_perm (qglobal, qnew, qperm); if (iret != UUCONF_SUCCESS) return iret; } } } /* HDB permits local requests to receive to any directory, which is not the default put in by _uuconf_isystem_basic_default. We set it here instead. */ for (qalt = qsys; qalt != NULL; qalt = qalt->uuconf_qalternate) { iret = _uuconf_iadd_string (qglobal, (char *) ZROOTDIR, FALSE, FALSE, &qalt->uuconf_pzlocal_receive, pblock); if (iret != UUCONF_SUCCESS) return iret; } /* HDB does not have a maximum number of retries if a retry time is given in the time field. */ if (qsys->uuconf_qtimegrade != NULL && qsys->uuconf_qtimegrade != (struct uuconf_timespan *) &_uuconf_unset && qsys->uuconf_qtimegrade->uuconf_cretry > 0) qsys->uuconf_cmax_retries = 0; return UUCONF_SUCCESS; } /* Add the settings of a MACHINE line in Permissions to a system. */ /*ARGSIGNORED*/ static int ihadd_machine_perm (qglobal, qsys, qperm) struct sglobal *qglobal; struct uuconf_system *qsys; struct shpermissions *qperm; { if (qperm->frequest >= 0) qsys->uuconf_fsend_request = qperm->frequest; else qsys->uuconf_fsend_request = FALSE; qsys->uuconf_pzremote_send = qperm->pzread; qsys->uuconf_pzremote_receive = qperm->pzwrite; qsys->uuconf_pzcmds = qperm->pzcommands; qsys->uuconf_zlocalname = qperm->zmyname; qsys->uuconf_zpubdir = qperm->zpubdir; qsys->uuconf_pzalias = qperm->pzalias; return UUCONF_SUCCESS; } /* Add the settings of a LOGNAME line in Permissions to a system. */ /*ARGSIGNORED*/ static int ihadd_logname_perm (qglobal, qsys, qperm) struct sglobal *qglobal; struct uuconf_system *qsys; struct shpermissions *qperm; { qsys->uuconf_fcalled = TRUE; if (qperm->frequest >= 0) qsys->uuconf_fsend_request = qperm->frequest; else qsys->uuconf_fsend_request = FALSE; qsys->uuconf_fcalled_transfer = qperm->fsendfiles; qsys->uuconf_pzremote_send = qperm->pzread; qsys->uuconf_pzremote_receive = qperm->pzwrite; qsys->uuconf_fcallback = qperm->fcallback; qsys->uuconf_zlocalname = qperm->zmyname; qsys->uuconf_zpubdir = qperm->zpubdir; return UUCONF_SUCCESS; }